Computationally efficient underwater acoustic 2-D source localization with arbitrarily spaced vector hydrophones at unknown locations using the propagator method

Jin He; Zhong Liu

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Computationally efficient underwater acoustic 2-D source localization with arbitrarily spaced vector hydrophones at unknown locations using the propagator method

机译：利用传播器方法，在未知位置使用任意间隔的矢量水听器进行高效计算的水下二维声源定位

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This paper presents a propagator-based algorithm for underwater acoustic 2-D direction-of-arrival (DOA) estimation with arbitrarily spaced vector hydrophones at unknown locations. The proposed algorithm requires only linear operations but no eigen-decomposition or singular value decomposition into the signal and noise subspaces. Comparing with its ESPRIT counterpart (Wong and Zoltowski, IEEE J Oceanic Eng 22:566-575, 1997a), the proposed propagator algorithm has its computational complexity reduced by this ratio: the number of sources to quadruple the number of vector hydrophones. Simulation results show that at high and medium signal-to-noise ratio, the proposed propagator algorithm's estimation accuracy is similar to its ESPRIT counterpart.

机译：本文提出了一种基于传播器的算法，用于在未知位置使用任意间隔的矢量水听器进行水下声学二维到达方向（DOA）估计。所提出的算法仅需要线性运算，而无需将特征分解或奇异值分解为信号和噪声子空间。与它的ESPRIT对应物（Wong和Zoltowski，IEEE J Oceanic Eng 22：566-575，1997a）相比，所提出的传播器算法的计算复杂度降低了这个比率：源数量增加了矢量水听器数量增加了四倍。仿真结果表明，该算法在高中信噪比下的估计精度与ESPRIT算法相当。

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来源
《Multidimensional systems and signal processing》 |2009年第3期|共12页
作者
Jin He; Zhong Liu;
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原文格式 PDF
正文语种 eng
中图分类通信理论;
关键词
Array signal processing; Direction-of-arrival estimation; Vector hydrophone; ESPRIT; Propagator;

机译：阵列信号处理;到达方向估计;矢量水听器;ESPRIT;传播器;

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专利

1. Computationally efficient underwater acoustic 2-D source localization with arbitrarily spaced vector hydrophones at unknown locations using the propagator method [J] . Jin He, Zhong Liu Multidimensional Systems and Signal Processing . 2009,第3期

机译：使用传播器方法在未知位置使用任意间隔的矢量水听器对计算有效的水下声二维源进行定位
2. Closed-form underwater acoustic direction-finding with arbitrarily spaced vector hydrophones at unknown locations [J] . Wong K.T., Zoltowski M.D. IEEE Journal of Oceanic Engineering . 1997,第3期

机译：在未知位置使用任意间隔的矢量水听器进行封闭形式的水下声学测向
3. Closed-form underwater acoustic direction-finding with arbitrarily spaced vector hydrophones at unknown locations [J] . Wong K.T., Zoltowski M.D. IEEE Journal of Oceanic Engineering . 1997,第4期

机译：在未知位置使用任意间隔的矢量水听器进行封闭形式的水下声学测向
4. Closed-form underwater acoustic direction-finding with arbitrarily spaced vector-hydrophones at unknown locations [C] . Wong, K.T., Zoltowski, . 1997

机译：在未知位置使用任意间隔的矢量水听器进行封闭形式的水下声学定向
5. Autonomous Surface Vehicle Measurement Location Planning for Optimal Underwater Acoustic Transponder Localization [D] . Garcia, Jesse R. 2018

机译：最佳水下声学应答器定位的自主地面车辆测量位置规划
6. Experimental Results of Underwater Cooperative Source Localization Using a Single Acoustic Vector Sensor [O] . Paulo Felisberto, Orlando Rodriguez, Paulo Santos, 2013

机译：使用单声矢量传感器进行水下合作源定位的实验结果
7. Closed-form underwater acoustic direction-finding with arbitrarily spaced vector-hydrophones at unknown locations [O] . Kainam T. Wong, Michael D. Zoltowski, Senior Member 1997

机译：在未知位置使用任意间隔的矢量 - 水听器进行封闭式水下声学测向

Computationally efficient underwater acoustic 2-D source localization with arbitrarily spaced vector hydrophones at unknown locations using the propagator method

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